LAUSR

To improve the conversion efficiency of rebaudioside C, this study screened the Paenarthrobacter ilicis CR5301 from soil samples and identified it by 16S rRNA. The conversion experiment proved that P. ilicis CR5301 was capable of converting rebaudioside C. The effects of initial pH, temperature, inoculation amount, and substrate concentration on rebaudioside C conversion rate were investigated. The results showed that the conversion rate of rebaudioside C reached up to 100% when CR5301 was incubated in a conversion medium with an initial pH of 7.0 for 8 h at 28°C and 270 rpm. The conversion time was reduced by at least 16 h compared with previous studies. The conversion product was analyzed and identified as steviol by high performance liquid chromatography, ultra performance liquid chromatography-triple-time of flight mass spectrometer, and Fourier transform infrared spectroscopy methods. In addition, stevioside, rebaudioside A, dulcoside A, and some unknown components in steviol glycosides byproduct were all efficiently converted to steviol. These findings provide an efficient approach to the conversion of rebaudioside C and byproduct to steviol to simplify the subsequent industrial process and improve the reuse value of steviol glycosides.